This not about saying: “Einstein was wrong”. Einstein’s General Relativity (GR) put forward extraordinary predictions of light bending, gravitational redshift and perihelion drift,... More > which all have been confirmed, leading to the theory’s undisputable and well-deserved success. Nevertheless, Einstein was not satisfied, he insisted on some underlying Aether to account for his theory.
This is about trying to do just that, to explain relativity and gravity from some underlying medium.
From a revised Aether understanding, by assuming particles are wave-like structures of some underlying medium, explanations emerge, including gravity, light bending etc., where observations are distorted so that we measure things relatively, while behind the scene “the straight line is straight and time runs steadily forward”. However, from the model, under extreme mass concentrations, a few predictions differ from General Relativity.
Derived from High School math only.
Can it be coincidences only?< Less

Orion Daley's revolutionary new theory of Relative Gravity explains in another way how the universe is put together. The fundamental universe is viewed like a plasma of alternating currents. Symmetry... More > is conserved through polymorphism of inherent properties. Given a wave length of some deep time, symmetry in properties is not at the exclusion of randomness. As derivatives, the four known forces: the Electro Strong and Weak, Electromagnetism and Gravity are considered to share symmetry where differentiated by their context. The relationship of dark and light matter is seen as that of impedance where particles to galaxies, or any other body between, are first viewed as manifolds having common and inherent properties. Particles can have opposite charge, and harmonics of vectors for strings with wavelengths subject to distortion. Bodies are considered skew-able and cumulative with respect to others within their context. Gravity is viewed as their fundamental relationship through superposition.< Less

Orion Daley's revolutionary new theory of Relative Gravity explains in another way how the universe is put together. The fundamental universe is viewed like a plasma of alternating currents. Symmetry... More > is conserved through polymorphism of inherent properties. Given a wave length of some deep time, symmetry in properties is not at the exclusion of randomness. As derivatives, the four known forces: the Electro Strong and Weak, Electromagnetism and Gravity are considered to share symmetry where differentiated by their context. The relationship of dark and light matter is seen as that of impedance where particles to galaxies, or any other body between, are first viewed as manifolds having common and inherent properties. Particles can have opposite charge, and harmonics of vectors for strings with wavelengths subject to distortion. Bodies are considered skew-able and cumulative with respect to others within their context. Gravity is viewed as their fundamental relationship through superposition.< Less

This book is developed with the intent of presenting the indispensable material of the theory as compactly as possible. This allows the option of self study on the part of the student or for an... More > advanced undergraduate lecture course to be developed that uses the material presented here as its basis. The text provides the necessary mathematics in tensor analysis and differential geometry in the first part of the text, and derives the fundamental physical properties of the theory in the second part. The book is intended as an introduction to the theory and treats each subject as such.< Less

This book is developed with the intent of presenting the indispensable material of the theory as compactly as possible. This allows the option of self study on the part of the student or for an... More > advanced undergraduate lecture course to be developed that uses the material presented here as its basis. The text provides the necessary mathematics in tensor analysis and differential geometry in the first part of the text, and derives the fundamental physical properties of the theory in the second part. The book is intended as an introduction to the theory and treats each subject as such.< Less

the core of all electromagnetic phenomenons they are related to the gravity and the solar system top questions solutions.
if you want know how the electricity is related to gravity please read this... More > book.
electro gravity has been visited in many phenomenon and experiments but yet it is not known its origin exactly and then in this book we can see the logic of electro gravity and its origin.< Less

Einstein's relativity theories, which are incompatible with quantum theory, are replaced with one that starts from quantum compatible asumptions. This leads naturally to a theory of quantum gravity... More > by what is known as ECM theory. This matches all the experimental checks that are still considered unique Einstein achievements. The result is to provde the missing element of the long sought unified theory with no flaws.< Less

Orion Daley's revolutionary new theory of Relative Gravity explains in an object oriented way how the universe is put together. The fundamental universe is viewed like a plasma of alternating... More > currents. Symmetry is conserved through polymorphism of inherent properties. Given a wave length of some deep time, symmetry in properties is not at the exclusion of randomness. As derivatives, the four known forces: the Electro Strong and Weak, Electromagnetism and Gravity are considered to share symmetry where differentiated by their context. The relationship of dark and light matter is seen as that of impedance where particles to galaxies, or any other body between, are first viewed as manifolds having common and inherent properties. Particles can have opposite charge, and harmonics of vectors for strings with wavelengths subject to distortion. Bodies are considered skew-able and cumulative with respect to others within their context. Gravity is viewed as their fundamental relationship through superposition.< Less

We avoid the usual electroweak symmetry breaking problem, by changing electromagnetism from U(1) to a massless SU(2) gauge theory (which works out correctly, yielding Maxwell’s equations from... More > the Yang-Mills, because charged massless vector bosons can’t propagate asymmetrically), so that SU(2) becomes a complete electroweak theory. (This is fine for the weak bosons, while the apparent discrepancy between weak isospin charges and fractional quark electric charges disappears with a vacuum polarization model, which predicts that 1/3 or 2/3 of the electric charge energy of quarks is present as strong colour charge.) U(1) is not abandoned altogether; it is dark energy, which also predicts gravity. The mass of SU(2) weak bosons is then produced by the Glashow-Weinberg mixing of U(1) gravity with SU(2) electromagnetism. Instead of a electroweak symmetry being broken to yield Nambu-Goldstone “Higgs” bosons, the weak interaction emerges from a simple mixing of SU(2) electromagnetism with U(1) gravity.< Less

Gravity's Rainbow is composed of four parts, each of these composed of a number of episodes whose divisions are marked by a graphical depiction of a series of squares. It has been suggested that... More > these represent sprocket holes as in a reel of film, although they may also bear some relation to the engineer's graph paper on which the first draft of the novel was written.< Less

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